Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.
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POSITIONED CHIP SURFACE COVERING
The present invention relates to decorative
surfaces, and more particularly, to decorative surfaces
comprising positioned chip patterns.
Background of th~ Invention
Decorative surface coverings are in wide use
and may be obtained by highly varied techniques. Of
particular interest are decorative surface coverings
comprising chips wherein the chips are applied either
randomly or in patterns. Methods currently known in the
art include the embedding of chips in a plastic matrix
whereby the resulting structure may be used as wall and
floor coverings.
Prior Art
A number of references disclose the embedding
of particulate materials in plastic matrices. Recently,
U. S. Patent No. 4,440,826 described an invention where
translucent or transparent chips were embedded in a
thermoplastic material such that the chips served as
windows onto an underlying pattern, thereby providing
unique visual properties. Also of interest are several
references which were cited during prosecution of the
'826 patent. These are U. S. Patent No. 4,054,699 which
describes a way of providing a chip-containing tile
pattern; U. S. Patent No. 3~749,629 which discloses a
way of making a decorative laminate by adhering chips to
an adhesive material; and U. S. Patent No. 3,265,548
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which describes a process for preparing a decorative
surface covering by depositing colored granules on a
liquid coating and heating and planishing the layered
material. Other references are also of interest such as
U. S. Patent Nos. 3,450,974 and 3,700,514, both of which
relate to other methods of preparing embedded chip
products.
Despite the substantial effort which has been
directed to the inventing of new and different processes
for the preparation of chip-containing materials, no
methods presently exist for the preparation of chip-
containing products wherein different chips may be
applied conveniently in a pattern.
Accordingly, one objective of the present
invention is to provide a method for preparing chip-
containing products wherein the products comprise a
pattern having more than one type of chip material
contained therein.
This and other advantages of the present
invention will become apparent from the detailed
description of preferred embodiments which follow.
Summary of the Invention
The present invention relates to a process for
preparing chip-containing decorative surfaces wherein
the chips are positioned so as to provide a pattern. A
first adhesive material is selectively applied to a
support surface and the conditions are adjusted so that
the first adhesive material is substantially non-adhesive
in nature. A second adhesive material is selectively
applied as a pattern on top of or adjacent to the first
adhesive material and chips are applied to the surface
so as to be adhered by the second adhesive material.
Any non-adhered chips are removed and the conditions are
adjusted so that the first adhesive material demon-
strates adhesive properties. A second type or color ofchip material is then applied so as to be adhered by the
first adhesive material. Upon removal of the
non-adhered chips, a product is obtained having a
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positioned chip pattern. The process may also be practiced
using additional adhesives and chips so as to provide proaucts
having more than two types of positioned chips.
The present invention also provides a decorative surface
covering comprising a support surface; a first and a second
adhesive material on said support surface; and a first and a
second decorative particulate material adhered to said support
surface by said second and first adhesive material,
respectively; said first adhesive material exhibiting
substantially non-adhesive properties and said second adhesive
material exhibiting adhesive properties under a first set of
environmental conditions.
Detailed Description of Preferred Em~d~men~
In one embodiment, the present invention comprises a
process of forming a deoorative sur~aae comprising decorative
particles, said process comprising selectively providing at
least two adhesive materials on a support surface, said
adhesives optionally being applied on top of or adjacent to one
another, and sequentially activating each adhesive material and
sequentially applying different types of particulate chip
materials to said surface such that each adhesive type adhe~es
substantially to one chip type, non-adhered chips being removed
after each chip application, whereby a product is produced
comprising a pattern of adhered chips.
In a second embodiment, the present invention relates to
a process for forming a decorative surface comprising decorative
particles, said process comprising the steps of selectively
providing a first adhesive material on a support surface;
selecting a first set of environmental conditions such that said
first material exhibits substantially non-adhesive properties;
selectively providing a second adhesive material on said support
surface, said second material being applied on top of and/or
adjacent to said flrst material, said second material exhibiting
adhesive properties under said first set of conditions;
depositing a first deaorative particulate material over the
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layered adhesive materials, at least a portion of said part;cu-
late material being adhered to said second material; removing
non-adhered particles from the surface of the layexed composite;
selecting a second set of environmental conditions such
that said first adhesive material exhibits adhesive
properties; depo,siting a second decorative particulate
material over the surfaae of the layered composite, at
least a portion of said second particulate material
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being adhered to said first adhesive material; and
removing non-adhered particles from the surface of the
layered composite.
The present invention is practiced by
selecting adhesive materials whi~h demonstrate adhesive
properties under different environmental conditions.
Thus, a first adhesive material is applied to all or
part of a support surface, and the conditions are
adjusted such that this first-applied material is
substantially non-adhesive. This may be achieved by
evaporating a solvent from the first-applied material,
or by other means well known to the artisan. The first
adhesive may be applied to thè support surface by means
well known in the art such as roll coating, curtain
coating and the like.
A second adhesive material is selectively
applied over the surface of the first adhesive material,
-~ or adjacent to the first material, so as to provide a
desired pattern. Various methods of applying the
pattern are also known in the art, examples being
rotogravure printing, screen printing, flexographic
printing and the like. The first chip material is then
applied to the surface of the layered materials so that
the chips will be adhered by the tacky second adhesive.
Essentially no chips will be held by the first-applied
adhesive material because the conditions have been
adjusted such that that adhesive is non-tacky. The
determination of suitable tackiness is well within the
capabilities of an ordinary artisan. Thus, an artisan
may use trial and error, or instrumental means may be
used, such as by making measurements using a "Zapon"
testing device.
After the first chips have been applied and
the non-adhered chips have been removed, the conditions
are readjusted by heating or by solvent treatment to
cause the first adhesive material to become tacky. A
second type!Of color of decorative chip is applied over
the surface of the composition so as to be adhered to
.
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the first adhesive material. Excess chips are then
removed so as to provide a positioned two-chip pattern.
Depending upon the use intended by the artisan, this
structure may be used as is, or it may be further
over-coated with a wear coating material, such as a
plastisol or chips which will eventually provide a
structure in which the chip pattern is clearly visible,
but which is suitable for use as a wear surface.
The first-applied adhesive must be a material
which can assume a non-adhesive state under the first
set of environmental conditions, but which can be
heat-activated to become adhesive under the second set
of environmental conditions. Typically it will be a
thermoplastic material. The last-applied adhesive can
be either a thermoplastic or thermoset material since it
would be used immediately to adhere the first applied
chips. Of course, if three or more types of chips are
applied in a sequential pattern, the intermediately
applied adhesives should be activatable by heat or
solvent treatment so that they can be activated in a
sequential manner under appropriate conditions.
Typically, these materials will also be thermoplastic in
nature.
Essentially any type of thermoset or
thermoplastic materials may be utilized, subject to the
considerations set forth above. For example, homo- and
co-polymeric acrylate and methacrylate adhesive compo-
sitions, acrylic and methacrylic resins, polyester
resins, styrene-based polymers, toluenesulfonamide-
formaldehyde resins, vinyl resin compositions and the
like may be used to provide adhesive compositions having
desired properties. In essence, the objective will be
to utilize materials which provide differential adhesive
properties under the selected processing condition.
A preferable way to practice the invention is
to provide as the first adhesive material a thermo-
plastic ~aterial which is solvent d~luted and which will
be substantially non-tacky at room temperature. Thus,
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when the adhesive is applied and the solvent is
evaporated, a relatively non-tacky surface is obtained.
This surface may be readily printed with a pattern of a
second adhesive or potentially adhesive material by any
means suitable to the artisan. Ideally, this last-applied
adhesive material will be a plastisol ink which is tacky
under ambient conditions; nevertheless, other low-melting
thermoplastic materials or thermoset materials may be
used as the second adhesive material. For thermoplastic
materials, the only requirement is that these materials
be lower-melting than the first-applied adhesive material.
The chips which may be used to practice the
invention are well known in the art. For example,
silica chips, quartz chips and many other inorganic
chips may be used to provide a visual effect. In
addition, poly~eric organic materials such as polyvinyl
chloride may also be selected provided that they are
amenable to the processing conditions which are selected.
Further, natural materials such as wood chips, vegetable
shell chips, and the like may be used to advantage.
The advantages of the present invention will
become more apparent by reference to the examples which
follow, said examples being provided by way of
illustration and not limitation.
EXAMPLES
Example 1
Thermoplastic compositions were prepared
having the following components:
Components Sample Number
(by weight) la _ lc ld le lf lg
polymethyl metha~rylate
adhesive ("Acryloid A-102"; 40%
solids from Rohm & Haas) 100 72
~olyacrylate adhesive ("Acryloid
B-44" from Rohm & Haas) 40 3343
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Components Sample Number
(by weight) la lb lc ld le lf
toluenesulfonamide-formaldehyde
resin (~'Santolite MHP" from
Monsanto) 11 8 12
acrylic copolymer resin
("Elvacite 2041" from
du Pont) 25
acrylic copolymer resin
("Elvacite 2013" from
du Pont) 12 12
vinyl resin (VYFS from
Union Carbide) 12 12
dioctyl phthalate plasticizer 16
methyl ethyl ketone 42 42 22 60 105 34 32
toluene 18 18 22 60 17 16
butyl benzyl phthala5te
~ plasticizer (S-160 from
Monsanto) 25
20 denatured alcohol 17 16
approximate tackiness
temperature (F) <200 <200 300 200 300 250 200
The approximate tackiness temperatures for
each o:f the above resins was determined by casting
solutions of each resin on glass plates and then
selectively heating to desired temperatures. The chips
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were applied to the heated plates, allowed to stand for
a brief period of time and excess or non-adhering chips
were dumped off. Temperature testing was conducted up
to approximately 300F. Each of the above examples was
found to exhibit suitable tackiness at (or below) the
indicated temperature.
Example 2
This example will illustrate the preparation
of a two-chip pattern. A solution of sample lc was
applied by roll coater at an approximate thickness of
2-3 mils ~wet) to a gelled plastisol substrate. The
coating was dried and the surface of the coating wa~
printed with a design using a rotary screen printer and
the following plastisol ink composition.
15 Components Parts by Wei~ht
PVC Resins
"Formalon NV-2" (Formosa Plastic~) 29.5
"Tenneco 1755"7 35.2
"Geon 173"8(B. F. Goodrich) 32.3
"Borden 260-Ss"' 3.0
Total 100.0
Plasticizers
Dioctyl phthalate 16.5
"Texanol" isobutyrate 21.3
Butyl benzyl phthalate 12.2
Total 50.0
Stabilizers
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"Drapex 4.4"1l(Argus Chem. Co.) 3.0
Zinc oxide 0.2
Barium neodecanoate 0.4
Total 3.6
Diluent
"Jayflex 210"12(Exxon Chemical) 5.0
lrotal 5.0
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10. Trademark for 2,2,4-trimethyl-1,3-pentanediol mono~
isobutyrate.
11. Trademark for octyl epoxy Tallate.
12. Trademark
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Components Parts by Weight
Pigment Dispersion
Titanium dioxide/dioctyl phthalate (1:1) 7.5
Total 7.5
166.1
The plastisol ink exhibited the ability to
hold chips whereas the first-applied coating lc did not.
Vinyl chips were applied to the entire sheet and those
chips not adhering to the wet plastisol ink were
removed. Heat was applied to gel the plastisol and
firmly adhere the chips. The sheet was then heated to
approximately 300F and chips of a dif~erent color blend
were applied. The sheet was cooled and excess chips
were removed to provide a layered material having a
two-color pattern of chips.
Example 3
This example will illustrate the preparation
of a composite comprising three adhesive materials and
two chip types. Compositions were prepared as follows:
20 Components (by weight) Sample Number
3a 3b
Vinyl solution, 22% soli~s
~ ("Plastoprint 5-Q-211'' from
Del-Val Ink & Color) 76.0
25 Acrylic copolymer resin ("Elvacite
2013" from du Pont) 17.5
Cellulose acetate propionate
(CAP-482-0.5 from Eastman Chemical) - 30.0
Polymethyl methacrylate adhesive
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("Acryloid A-21-LV'l; 30~ solids
from Rohm & Haas) - 26.6
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Components (by weight) Sample Number
3a 3b
Wetting agent ("Triton x-lOO~ from
Rohm ~ Haas) - 0.5
5 Solvent blend (toluol 63%; denatured
**
alcohol 20~; "Cellosolve" acetate 7~) 56.4 143
A gelled plastisol support surface was
selected and a 1 mil coating of sample 3b was applied to
a portion of the surface. A similar l-mil coating of
sample 3a was applied to a portion of the support
surface such that none of this sample was applied over
sample 3b. Finally, a clear plastisol ink having the
formula set forth in Example 2 (excluding the pigment)
was applied to the remaining uncoated portions of the
support surface. The solvent was permitted to evaporate
from the 3a and 3b portions of the surface, leaving only
the plastisol ink-coated portions in a wet condition.
Multi-colored PVC chips were applied to the
entire surface and excess chips were removed, leaving
chips adhered only to the ink-coated portions of the
surface. The partially coated composite was heated at
250~F for two minutes to gel the plastisol and to
activate thermoplastic ink 3a. While hot, the structure
was covered with vinyl chips having a different color,
and excess chips were removed. This resulted in a final
structure in which different colored chips were adhered
to the sample 3a-coated and plastisol ink-coated
portions of the composite, but in which no chips were
adhered to the sample 3b-coated portions of the surface.
It is noted that the above procedure may be
performed by using pressure to consolidate the chips
into the receiving portion of the surface; however,
brushing may be necessary in this case to overcome some
minimal, but unwanted, adherence of the chips to other
portions of the surface. F~rthermore, comparable
* Trademark for octylphenoxy polyethoxy ethanol, a nonionic
surfactant.
** Trademark,"Cellosolve" acetate is ethylene glycol
monoethyl ether acetate.
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structures may be prepared in which sample 3b is
replaced by a somewhat lower-melting material so that
3-chip patterns are produced.
The present invention is not restricted solely
to the descriptions and illustrations provided above,
but encompasses all modifications envisaged by the
following claims.
